Adopting a Multi-Vendor SD-WAN Strategy

January 9, 2019 | 120 views

2019 is the year that SD-WAN implementations are set to explode. That said, many enterprises are nervous about their SD-WAN vendor selection seeing as this is a new market with a lot of new vendor and products. For many enterprises, a multi-vendor SD-WAN strategy may be the best near-term strategy as this market continues to mature.

Spotlight

CyberTAN

CyberTAN Technology, Inc. is a leading manufacturer of broadband and wireless networking equipment. Since its founding in June 1998, CyberTAN has energetically invested in R&D resources to provide professional OEM/ODM services for the home networking and communications market.

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NETWORK MANAGEMENT

5G Small Cells: The Future of Wireless Networks

Article | July 11, 2022

5G small cells form the backbone of the modern wireless networks. Learn more about this technology is revolutionizing 5G deployment and enabling various use cases across industries in this article. Contents 1 Introduction to 5G Small Cells for Modern Businesses 2 5G Small Cells: Overview 2.1 Characteristics of 5G Small Cells 2.2 How Small Cells Fit into 5G Architecture 3 Benefits of 5G Small Cells for Businesses 3.1 Improved Coverage and Capacity 3.2 Enhanced Network Performance 3.3 Lower Latency 3.4 Cost-effectiveness 4 Use Cases for 5G Small Cells 4.1 Urban Areas 4.2 Rural Areas 4.3 Indoor Environments 5 Conclusion 1 Introduction to 5G Small Cells for Modern Businesses Small cells are low-power radio access nodes that operate in licensed and unlicensed spectrum bands and are typically deployed in areas with high demand for wireless connectivity. They are a vital component of the 5G wireless network architecture and are designed to complement traditional cell towers, providing improved coverage, network capacity, and faster data speeds. Small cells come in several types, including femtocells, picocells, and microcells, and can be deployed according to the use case. 2 5G Small Cells: Overview 2.1 Characteristics of 5G Small Cells 5G small cells are characterized by small form factors and are designed to be compact and discreet for deployment in various settings, such as urban areas, rural areas, indoor environments, and public spaces. In addition, they consume less power than traditional cell towers, making them more energy-efficient. They also operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than traditional cell towers, which makes small cells essential for 5G. The 5G small cell architecture can be deployed in dense networks, providing better coverage and capacity in areas where traditional cell towers may not be able to reach. Also, a 5G small cell antenna can be configured to provide seamless handoffs between cells, ensuring users have a consistent and uninterrupted wireless experience. These characteristics make them ideal for specific 5G use cases, which will be explored further in the article. 2.2 How Small Cells Fit into 5G Architecture Small cells and 5G evolution are closely linked, and this technology is an ideal solution for future wireless networks. They offer greater capacity, coverage, and flexibility than traditional cell towers, allowing them to meet the demands of an increasingly connected world. By operating on high-frequency bands and being deployed in dense networks, small cells in 5G can provide faster data speeds, lower latency, and better coverage than previous generations of wireless networks. Additionally, their small form factor and flexible deployment options allow for use cases like private 5G networks that revolutionize industries. 3 Benefits of 5G Small Cells for Businesses 5G networks will support a massive increase in connected devices, including smartphones, IoT sensors, and other devices. Small cells are critical for achieving the full potential of 5G networks and the exciting new applications and services they will enable. 3.1 Improved Coverage and Capacity 5G small cells offer improved coverage over traditional cell towers in certain situations, particularly in urban areas. Buildings and other obstacles interfere with wireless signals, so the connection quality decreases in areas with such infrastructure. By deploying small cells closer to users, the network can provide better coverage and capacity in these areas. Small cells can also be deployed indoors, providing better coverage and capacity in buildings and other enclosed spaces. This is important due to poor wireless range, signal interference from walls, and other obstacles. By deploying small cells indoors, the network can provide better coverage and capacity in these areas, improving the overall wireless experience for users. 3.2 Enhanced Network Performance The deployment of small cells enables network densification, which allows several devices to connect to the network simultaneously. This can help reduce network congestion and improve overall network performance, particularly in urban areas. They can also be configured to provide seamless handoffs between cells, ensuring that users have a consistent and uninterrupted wireless experience. This is important because users often move between different areas with different coverage levels and capacities, providing a streamlined experience. 3.3 Lower Latency Small cells are designed to operate on high-frequency bands, which enables them to provide faster data speeds and lower latency than prior generations of wireless networks. This is especially important for applications that require real-time communication, such as virtual reality, autonomous vehicles, and remote surgery. By providing faster data speeds and lower latency, small cells can help enhance these applications' performance, providing a better overall user experience. 3.4 Cost-effectiveness Small cells offer a cost-effective alternative to traditional cell towers, particularly in urban areas with high land and real estate costs. By mounting 5G small cell antennas on existing infrastructure, such as lampposts and buildings, deployment costs can be lowered. Additionally, small cells can be deployed in a modular fashion, allowing for targeted and cost-effective expansion based on the required coverage and capacity. This approach avoids large-scale and expensive deployments of new infrastructure. Moreover, small cells can be powered by low-cost, low-power sources like solar panels or batteries, reducing ongoing operational costs. Furthermore, small cells consume less power than traditional cell towers, resulting in lower energy costs. 4 Use Cases for 5G Small Cells 4.1 Urban Areas As discussed previously, small cell radio antennas in 5G can improve networks in dense urban environments, alleviating network congestion and improving data speeds. In addition, by deploying small cells in areas with high user demand, network operators can provide targeted coverage and capacity improvements to specific areas, ensuring that users have fast and reliable connectivity. 4.2 Rural Areas Small cells can be used to extend coverage to underserved or unserved areas by traditional cell towers. They can fill in coverage gaps, providing reliable connectivity to users in rural areas that may not have access to high-quality wireless services. This will enable use cases such as remote workforces in rural areas, smart agriculture, and distance education and training. 4.3 Indoor Environments Traditional cell towers may not be able to provide reliable connectivity indoors due to physical barriers such as thick walls and ceilings. Small cells can provide targeted coverage and capacity to specific areas, such as conference rooms or shopping malls, where users require high-quality wireless connectivity. In addition to improving range, small cells can help alleviate network congestion and improve data speeds in high-traffic indoor environments. 5 Final Thoughts Small cells are a crucial element in developing and implementing 5G technology. By leveraging a small form factor and high-frequency band usage, small cells facilitate the deployment of 5G networks in a more cost-effective and targeted manner than traditional cell towers. They support a wide range of use cases by providing reliable and high-quality wireless connectivity to a growing number of devices. They will continue to be a critical technology for businesses and organizations seeking to leverage the benefits of 5G technology.

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MOBILE INFRASTRUCTURE, MOBILE OS, NETWORK INFRASTRUCTURE

5G Trends That Will Shape the Future of Technology

Article | April 11, 2023

5G trends are shaping the future of various technologies, from the Internet of Things to Virtual Reality. Learn more about the top trends in 5G to stay ahead of the competition in this sector. Contents 1 The Value of 5G for Businesses 2 5G Trends to Watch in 2023 2.1 Shift to Standalone 5G 2.2 Edge Computing for IoT 2.3 Adoption of Private 5G Networks 2.4 General Availability of 5G 2.5 Partnerships for Rapid Deployments 3 Conclusion 1 The Value of 5G for Businesses The fifth-generation network technology, or 5G, promises to revolutionize the way businesses communicate and operate. It offers lower latency, faster data transfer speeds, more robust security, and new and enhanced experiences. These capabilities enable 5G to support high-quality video conferencing, real-time collaboration, immersive virtual experiences, and more. By investing in 5G, businesses can stay competitive and meet the evolving needs of their employees and customers. With the growing adoption and use cases of this technology, keeping up with the technology trends in 5G is essential for staying ahead in today's business landscape. 2 5G Trends to Watch in 2023 2.1 Shift to Standalone 5G The rapid deployment of 5G across the world has been made possible due to the existence of an already-established 4G infrastructure. This has allowed operators to concentrate on developing the radio access network components while relying on 4G networks as a failsafe. This approach has enabled operators to deploy 5G networks at a faster pace, thereby allowing the benefits of this technology trend to reach a wider audience. The integration of a 5G core and radio forms the backbone of 5G infrastructure, enabling the 5G stand-alone network to achieve its full potential. Wireless providers have been actively promoting the key features of 5G, such as ultra-low latency and complete network slicing, which are exclusively available through the stand-alone version of this advanced technology. By utilizing this emerging technology, businesses can unlock an entirely new level of performance, allowing them to deliver innovative and immersive services to their end-users. Stand-alone 5G is also a necessity for certain unique use cases, and many 5G trends in 2023 will rely on its capabilities. It is essential for businesses to understand the benefits of this advanced technology and adopt it to remain competitive in the ever-evolving digital landscape. 2.2 Edge Computing for IoT The convergence of 5G technology and IoT is transforming how businesses operate across industry verticals. This 5G trend enables edge computing for the IoT by providing low-latency and high-bandwidth connectivity. With 5G, data can be transmitted and processed at the edge of the network, closer to the source of the data, rather than being sent to a central data center for processing. While extensive IoT fleets can operate on a 4G network, a 5G network will improve upon those capabilities with massive multiple-input, multiple output capabilities, enabling an increased number of devices to connect with the cell tower. This is especially useful in IIoT, where a large number of IoT devices are present within a small area, which requires this level of connectivity. The low latency and high bandwidth offered by 5G infrastructure also support innovative IoT solutions, such as integrating artificial intelligence, by enabling real-time processing of data and faster response times. Edge computing allows IoT devices to perform complex processing tasks and make decisions locally, rather than relying on a centralized cloud server. Businesses that operate in industries that require real-time processing will especially benefit from the digital transformation through 5G. 2.3 Adoption of Private 5G Networks Private wireless networks are suitable for many industrial applications, and the market for private 5G networks is set to expand rapidly. Private 5G networks offer greater cybersecurity, control, and reliability, making them ideal for mission-critical applications that require high levels of security and privacy. This is one of the key 5G trends because it is applicable to industries such as manufacturing, healthcare, and finance, where IoT devices collect and share sensitive data that requires greater cybersecurity. Businesses can also utilize private 5G networks to benefit from higher bandwidth, lower latency, and greater flexibility compared to public networks. Private 5G networks can be customized and tailored to meet the specific requirements of each application, making them ideal for specialized functions. As more enterprises look to benefit from network-intensive technologies such as artificial intelligence, virtual reality, and big data, the demand for private wireless networks will continue to rise. Network operators are also more willing to offer private 5G networks because they represent a new revenue stream and a growth opportunity while also allowing them to provide a more personalized service to their customers. 2.4 General Availability of 5G The 5G trends have moved towards access to 5G across the world, with 5G now available in 95 countries and reaching to more than 1.2 billion people. 5G networks are becoming more widespread in 2023, and as a result, many 5G trends and technologies are expected to emerge. Furthermore, 5G has become standard across all premium devices and many mid-range ones, making it an attractive option for consumers. For businesses, this means a whole new world of possibilities. 5G networks offer faster speeds, higher bandwidth, and lower latency, enabling businesses to offer more innovative products and services. With the increased availability of 5G, businesses can develop and deploy emerging technologies like artificial intelligence and machine learning, augmented reality, and virtual reality. Remote work and related use cases will also rise in popularity as 5G becomes more common. However, the distribution of 5G networks differs by region. 5G trends indicate that urban populations will likely be the first beneficiaries of public 5G rollouts and will benefit the most from 5G capabilities such as network densification and massive MIMO. With the deployment of 5G small cells for connectivity, 5G networks will support new use cases and faster, more reliable connectivity for the general public, especially in urban areas. 2.5 Partnerships for Rapid Deployments By connecting disjointed B2B and B2C networks with ecosystems, service providers can become service enablers, working with businesses, consumers, and even competitors to create unique 5G offerings. Digital transformation is possible through new approaches to partnerships, through which service providers manage commoditization pressures and a hyper-competitive market. Partnerships also provide businesses with access to industry skill sets that are in high demand, such as cloud, cybersecurity, and automation. By partnering with players who are already experts, cellular network providers offer specialized solutions to their customers that they may not have been able to provide otherwise. Hosted labs also help to speed ecosystem validation of use cases and new technology, ensuring that solutions are effective and efficient. Furthermore, partnerships enable service providers to create products with global scale, as demonstrated by SAP, IBM, ServiceNow, and Deutsche Telekom, which have collaborated to create global connectivity offerings ranging from 5G to software-defined networks. In the race to increase revenue and control costs in the 5G industry, collaborating with industry experts and integrating solutions will become one of the key 5G technology trends. Through collaboration, service providers can offer unique solutions to their customers, access necessary industry skill sets, and create products with global scale. These partnerships are necessary for businesses to remain competitive in an ever-changing market. 3 Conclusion The ongoing rollout of 5G networks is set to transform businesses across all industries, bringing faster speeds, lower latency, and the ability to connect more devices than ever before. As technology continues to evolve, businesses need to stay up-to-date with the future trends in 5G in order to take advantage of its full potential. The growing demand for low latency and massive connectivity due to new use cases such as edge computing and the IoT is driving the growth of 5G networks. These trends will enable businesses to create new products and services, increase efficiency and productivity, and ultimately transform the way they operate. As 5G networks continue to mature, businesses that invest in this technology will have a competitive advantage over those that do not. They will be able to deliver faster, more reliable services to customers, streamline operations, and reduce costs. With the right approach, organizations can capitalize on the latest trends in 5G and unlock new opportunities for growth and innovation in the years to come.

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WIRELESS, 5G

SA and NSA: The Difference Between 5G Architectures

Article | May 18, 2023

Choosing the right 5G architecture is crucial for enhancing operations while keeping scalability and budget in mind. Learn whether SA or NSA is more suitable for your business needs with this article. 1. Introduction to 5G Network Architectures 2. What is 5G SA? 2.1 Characteristics of SA Architecture 2.2 Benefits of SA Architecture 3. What is 5G NSA? 3.1 Characteristics of NSA Architecture 3.2 Benefits of NSA Architecture 4. Factors to Consider When Choosing Between SA and NSA 4.1 Cost Implications of Each Architecture 4.2 Future Implications of Each Architecture 5. Conclusion 1. Introduction to 5G Network Architectures Widespread implementation of 5G is transforming how businesses across verticals operate, providing enhanced speed, low latency, and massive connectivity. The advancements in 5G system architecture enable new use cases, from autonomous vehicles to smart cities. There are currently two types of 5G network architecture, namely 5G standalone (5G SA) and 5G non-standalone (5G NSA). These two architectures differ in how they connect to the existing 4G infrastructure, the type of equipment required, and the level of network independence. Therefore, understanding the difference between SA and NSA is crucial for companies and organizations implementing 5G architecture. 2. What is 5G SA? 5G SA architecture is an entirely new technology that uses 5G core network architecture, independent of the current 4G LTE network. It has various use cases, such as combining 5G with AI and edge use cases. 2.1 Characteristics of SA Architecture Independent Network: All components of the architecture, including the 5G core architecture, radio access network, and user equipment, are not reliant on any 4G technology. High Performance: 5G SA architecture is optimized for high performance and low latency, enabling fast data transfer rates and near-instantaneous response times. Distributed Architecture: This allows efficient resource allocation and dynamic management of network resources. End-to-End Encryption: It provides end-to-end encryption, which ensures that data is secure and protected from unauthorized access. Higher Cost: 5G SA architecture is more expensive to implement than NSA architecture due to the need for a fully independent 5G network infrastructure. 2.2 Benefits of SA Architecture Low Latency: Applications of 5G that require real-time processing are only possible with SA architecture. Customization: As SA does not depend on existing network architecture, it can be tailored to company requirements. It also enables network slicing for 5G enterprise private network use cases. Security: End-to-end encryptions ensure a more secure network, and 5G network slicing keeps various access levels separate. Scalability: 5G architecture is designed to be highly scalable and handle large volumes of data and devices. Future-proofing: SA architecture will be able to support upcoming 5G features and capabilities by design. 3. What is 5G NSA? 5G NSA provides a transition into 'true' 5G architecture by incorporating 4G network infrastructure for deployment. 3.1 Characteristics of NSA Architecture Non-Independent Network: 5G NSA architecture is designed to leverage the existing 4G infrastructure to deliver 5G services. Transition to SA: NSA offers lower latencies and faster speeds than 4G LTE without deploying 5G architecture. Integrated Deployment: 5G NSA can be deployed quickly since it integrates existing infrastructure. Limited Scalability: As it relies on the existing 4G infrastructure, NSA is limited in scaling. Low Scalability: There is a lower limit on how many devices can join the network and the data volume that can be processed on NSA. 3.2 Benefits of NSA Architecture Faster Deployment: 5G NSA architecture can be deployed more rapidly than SA architecture. Easier Integration: 4G integration with existing networks is easier since it uses architecture. Cost-effective: 5G NSA architecture is generally less expensive to implement as it doesn't require a complete overhaul of the existing infrastructure to a 5G core architecture. Improvement Over 4G: While not providing the speed and low latency of 'true' 5G, NSA offers significant improvements over 4G networks. 4. Factors to Consider When Choosing Between SA and NSA 4.1 Cost Implications of Each Architecture SA architecture requires a complete overhaul of the existing infrastructure, which can result in higher infrastructure and deployment costs. However, SA architecture can be more cost-effective in the long run due to its future-proof design and ability to provide greater scalability and customization. On the other hand, NSA architecture leverages the existing 4G infrastructure, resulting in lower infrastructure and deployment costs. However, upgrading and maintaining an existing 4G network to support 5G technology can be complex and may result in higher operational costs in the long run. 4.2 Future Implications of Each Architecture SA architecture is designed to be future-proof and scalable, supporting upcoming 5G features and capabilities. This can give organizations greater flexibility and agility to respond to changing business needs and emerging technologies. On the other hand, NSA architecture may be less future-proof and require additional investments in infrastructure and resources to support new 5G features and capabilities. 5. Conclusion While NSA architecture may offer lower upfront costs and a faster deployment timeline, SA architecture may be more future-proof and scalable in the long run. Choosing the appropriate 5G architecture is a critical determinant for organizations aiming to utilize 5G technology in building a connected industry of the future. Organizations must evaluate their requirements and consider each architecture's short and long-term costs and operational implications before making a decision.

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Ericsson’s 5G platform adds unique core and business communication capabilities

Article | February 13, 2020

To leverage the full benefits of 5G and cloud native investments, orchestration and automation are now a critical matter of business. Ericsson’s 5G platform is now being strengthened with new solutions that enable smarter business. David Bjore, Head of R&D and Portfolio, Business Area Digital Services, Ericsson, says: “Through our core networks, service providers can get to market faster and can capitalize on new services, through leading consumer and enterprise communication and monetization solutions, enabling them to stay ahead in the race for 5G business, today and tomorrow.”

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Spotlight

CyberTAN

CyberTAN Technology, Inc. is a leading manufacturer of broadband and wireless networking equipment. Since its founding in June 1998, CyberTAN has energetically invested in R&D resources to provide professional OEM/ODM services for the home networking and communications market.

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NETWORK INFRASTRUCTURE

Algeria Telecom Deploys NEC & Juniper Networks' 5G-Ready IP MTA

Algeria Telecom | May 31, 2022

NEC Corporation, a world's leading IT and network transformation service company, and Juniper Networks, a leader in secure, AI-driven networks, have worked with Algeria Telecom, the leader in the Algerian telecommunications market, to roll out its modernized, nationwide IP metro commercial network to support current demand for increased capacity and future 5G and FTTx requires. Algeria Telecom has a mid-term strategy objective to develop a homogenized, optimized transport network with automated capabilities to ensure bandwidth and future-proof its infrastructure in a rising market. NEC and Juniper implemented Algeria Telecom's next-generation IP metro network while maintaining quality of service and the greatest user experience. Algeria Telecom chose Juniper Networks' high-performing, security solutions for SDN-ready, cloud-grade networking and feature-rich, simple and secure connectivity at scale as the innovative foundation of its new platform. The access nodes create separate pre-aggregation, aggregation, and access domains for optimal reliability. Algeria Telecom implemented the Juniper Paragon Automation cloud-native solution package, Paragon Pathfinder and Paragon Planner, to get deep network insight and simplify operations. This ensures 5G and multicloud user experiences. All Juniper systems operate on Junos OS to deliver an easily managed, open solution. Mr. Adel Bentoumi, CEO of Algeria Telecom said that "The successful completion of the IP metro network modernization project by our partners, NEC Corporation and Juniper Networks, will allow us to make the migration to IPV6 and the initiation of digital transformation, as well as the implementation of high speed internet, as we best satisfy the needs of Algeria Telecom customers." The rapid growth of network traffic is a clear indication of the need for modernization and expansion of network capacity. NEC and Juniper have been extremely attentive to our needs, both technical and commercial, working as an extension of our team with their outstanding local engineering abilities, as well as their relentless efforts to assure quality of experience and on-time delivery. Overall, the innovative solutions from Juniper to enable this automated metro cloud architecture have helped us achieve our strategic goals and thrive as we pave the way for 5G.” AllahoumHocine, Head of IP Core, Algeria Telecom Brendan Gibbs, Senior Vice President, Automated WAN Solutions, Juniper Networks said that “Networks have always been a key asset for service providers, but going forward they will be the foundation for every aspect of business transformation in the 5G and cloud era. Algeria Telecom is jumping ahead of the curve by investing in an open, agile and automated network architecture that can drive simplified operations, improved economics and superior end-user experiences.”

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WIRELESS

TDK Ventures Invests in XCOM Labs

TDK | May 30, 2022

TDK Corporation today announced that its subsidiary TDK Ventures, Inc. has decided to invest in wireless communications disruptor XCOM Labs to accelerate the development of their 5G and wireless communications solutions, which prioritize bandwidth capacity, latency reduction/elimination, and compute load balancing. XCOM is developing wireless technologies to allow smart manufacturing, automation, off-site training, and more immersive telework experiences in the future of work and Industry 4.0. This extends beyond medical, entertainment, and even defense applications to aid in the training and preparation of military troops. Many of the breakthrough technologies seen in the 2G/3G/4G revolutions were developed by XCOM's leadership team, which included Dr. Paul Jacobs, Derek Aberle, and Matt Grob. As present infrastructure cannot keep up with the need for 5G and wireless infrastructure, there is a large demand for further growth and adoption of supporting technologies. Each "G" generation signifies an effort to increase wireless transmission speed, capacity, and overall value. This necessitates not only hardware and software improvements, but also the use of either frequency spectra in new and novel waves or very new frequency bands. The balance of energy, frequency, and transmission is one of several compromises. Higher frequency – and consequently energy signals – can transport more information in less time but degrade faster over distance. In terms of infrastructure, this implies that more transmitting "nodes" in the network are required to convey higher frequency signals over a given region. XCOM is developing technologies that will level the playing field. Their solutions aim to increase spectrum capacity and utility by more than tenfold, allowing the potential promised by 5G and next-generation developers to become a reality. XCOM, for example, is developing further to take digital transformation to the next level via extended reality (XR). They are building a high throughput, low latency wireless technology to enable seamless virtual reality (VR) and augmented reality (AR) experiences utilizing a globally accessible 60GHz millimeter wave spectrum. What was previously constrained by the necessity for heavy processing equipment nearby or the poor throughput of smartphone processing is now becoming a full system capable of immersing the user in a metaverse or digital world environment. This will be a significant advancement in the integration of edge computing processing to deliver a more natural user experience. The XCOM team is set on continuing our tradition of excellence and innovating in the wireless space. We understand how important high throughput/low latency is for the future of compute-heavy applications and are working to deliver those capabilities to create real and positive change in our world and industry applications. Our XR technologies are evidence of this progress and show that seamless processing through edge computing can deliver a truly immersive and agile VR/AR system fit for business, entertainment, and more." XCOM's Dr. Jacobs TDK Ventures shares XCOM's dedication to digital transformation for a better, more sustainable future. TDK Ventures will assist XCOM with scaling the effect of their technology by using their network connections, industry partners, and linking XCOM to other TDK business divisions. The platform team at TDK Ventures also offers early product validation, pilots, customer/channel/ecosystem access, market knowledge, operational experience (e.g., materials, manufacturing, fabless, supply chain), and go-to-market/branding coaching.

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WIRELESS

Vislink Showcases Innovative 5G & Cloud-Based Wireless Solutions

Vislink | May 27, 2022

Vislink, a worldwide leader in the capture, distribution, and management of high quality, live video and data in the media & entertainment, law enforcement, and military industries, presented private network 5G technology during a sports event in the UK to illustrate its potential in broadcast. Vislink and Mobile Viewpoint's adoption heralds a revolution in remote production processes by extending bi-directional IP connections to the edge and allowing virtualized production in the cloud. Vislink's breakthroughs were on display at the Gallagher Premiership Rugby match between Saracens and the Northampton Saints at StoneX Stadium in London, where it backed a BT-led project to highlight the potential for 5G in broadcast contributions by connecting matchday cameras to a standalone private 5G network. In a UK first, this cameras' feed was included in BT Sport's live broadcasts of the match, a first for a customer broadcast. BT Media & Broadcast, BT Sport, Broadcast RF, and Neutral Wireless headed the project. Vislink installed private network 5G transmitters with COFDM technology to illustrate how 5G technology is growing to offer assured quality, low latency video from wireless cameras to give spectators realistic up-close camera views of the athletic event. Mobile Viewpoint's 5G-enabled encoders send camera feeds to the cloud across a secure, low-latency 5G private network and IP LAN. The director can pick camera feeds for the program stream fully in the cloud, utilizing BT Sport's virtualized production process. This cloud-based installation illustrates Mobile Viewpoint's capacity to bring new cost and operating advantages for distant manufacturing operations. Vislink's long-standing expertise in COFDM-based wireless technologies was bolstered last year with the inclusion of Mobile Viewpoint 5G technology capabilities. Vislink now has a best-of-breed portfolio of resilient and efficient solutions for a broad range of deployment situations thanks to the integration of these technologies. Following on from the world's first stand-alone private 5G network for sports broadcasting during the British MotoGP 2021 Grand Prix, this current public demonstration signals another step forward in the company's 5G wireless technology leadership. Vislink and Mobile Viewpoint showed the world's first glass-to-glass All-IP wireless and virtualized manufacturing during this experiment, which was arranged by BT Sport and BT Media & Broadcast. This momentous trial has now established the future course for live event streaming.

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NETWORK INFRASTRUCTURE

Algeria Telecom Deploys NEC & Juniper Networks' 5G-Ready IP MTA

Algeria Telecom | May 31, 2022

NEC Corporation, a world's leading IT and network transformation service company, and Juniper Networks, a leader in secure, AI-driven networks, have worked with Algeria Telecom, the leader in the Algerian telecommunications market, to roll out its modernized, nationwide IP metro commercial network to support current demand for increased capacity and future 5G and FTTx requires. Algeria Telecom has a mid-term strategy objective to develop a homogenized, optimized transport network with automated capabilities to ensure bandwidth and future-proof its infrastructure in a rising market. NEC and Juniper implemented Algeria Telecom's next-generation IP metro network while maintaining quality of service and the greatest user experience. Algeria Telecom chose Juniper Networks' high-performing, security solutions for SDN-ready, cloud-grade networking and feature-rich, simple and secure connectivity at scale as the innovative foundation of its new platform. The access nodes create separate pre-aggregation, aggregation, and access domains for optimal reliability. Algeria Telecom implemented the Juniper Paragon Automation cloud-native solution package, Paragon Pathfinder and Paragon Planner, to get deep network insight and simplify operations. This ensures 5G and multicloud user experiences. All Juniper systems operate on Junos OS to deliver an easily managed, open solution. Mr. Adel Bentoumi, CEO of Algeria Telecom said that "The successful completion of the IP metro network modernization project by our partners, NEC Corporation and Juniper Networks, will allow us to make the migration to IPV6 and the initiation of digital transformation, as well as the implementation of high speed internet, as we best satisfy the needs of Algeria Telecom customers." The rapid growth of network traffic is a clear indication of the need for modernization and expansion of network capacity. NEC and Juniper have been extremely attentive to our needs, both technical and commercial, working as an extension of our team with their outstanding local engineering abilities, as well as their relentless efforts to assure quality of experience and on-time delivery. Overall, the innovative solutions from Juniper to enable this automated metro cloud architecture have helped us achieve our strategic goals and thrive as we pave the way for 5G.” AllahoumHocine, Head of IP Core, Algeria Telecom Brendan Gibbs, Senior Vice President, Automated WAN Solutions, Juniper Networks said that “Networks have always been a key asset for service providers, but going forward they will be the foundation for every aspect of business transformation in the 5G and cloud era. Algeria Telecom is jumping ahead of the curve by investing in an open, agile and automated network architecture that can drive simplified operations, improved economics and superior end-user experiences.”

Read More

WIRELESS

TDK Ventures Invests in XCOM Labs

TDK | May 30, 2022

TDK Corporation today announced that its subsidiary TDK Ventures, Inc. has decided to invest in wireless communications disruptor XCOM Labs to accelerate the development of their 5G and wireless communications solutions, which prioritize bandwidth capacity, latency reduction/elimination, and compute load balancing. XCOM is developing wireless technologies to allow smart manufacturing, automation, off-site training, and more immersive telework experiences in the future of work and Industry 4.0. This extends beyond medical, entertainment, and even defense applications to aid in the training and preparation of military troops. Many of the breakthrough technologies seen in the 2G/3G/4G revolutions were developed by XCOM's leadership team, which included Dr. Paul Jacobs, Derek Aberle, and Matt Grob. As present infrastructure cannot keep up with the need for 5G and wireless infrastructure, there is a large demand for further growth and adoption of supporting technologies. Each "G" generation signifies an effort to increase wireless transmission speed, capacity, and overall value. This necessitates not only hardware and software improvements, but also the use of either frequency spectra in new and novel waves or very new frequency bands. The balance of energy, frequency, and transmission is one of several compromises. Higher frequency – and consequently energy signals – can transport more information in less time but degrade faster over distance. In terms of infrastructure, this implies that more transmitting "nodes" in the network are required to convey higher frequency signals over a given region. XCOM is developing technologies that will level the playing field. Their solutions aim to increase spectrum capacity and utility by more than tenfold, allowing the potential promised by 5G and next-generation developers to become a reality. XCOM, for example, is developing further to take digital transformation to the next level via extended reality (XR). They are building a high throughput, low latency wireless technology to enable seamless virtual reality (VR) and augmented reality (AR) experiences utilizing a globally accessible 60GHz millimeter wave spectrum. What was previously constrained by the necessity for heavy processing equipment nearby or the poor throughput of smartphone processing is now becoming a full system capable of immersing the user in a metaverse or digital world environment. This will be a significant advancement in the integration of edge computing processing to deliver a more natural user experience. The XCOM team is set on continuing our tradition of excellence and innovating in the wireless space. We understand how important high throughput/low latency is for the future of compute-heavy applications and are working to deliver those capabilities to create real and positive change in our world and industry applications. Our XR technologies are evidence of this progress and show that seamless processing through edge computing can deliver a truly immersive and agile VR/AR system fit for business, entertainment, and more." XCOM's Dr. Jacobs TDK Ventures shares XCOM's dedication to digital transformation for a better, more sustainable future. TDK Ventures will assist XCOM with scaling the effect of their technology by using their network connections, industry partners, and linking XCOM to other TDK business divisions. The platform team at TDK Ventures also offers early product validation, pilots, customer/channel/ecosystem access, market knowledge, operational experience (e.g., materials, manufacturing, fabless, supply chain), and go-to-market/branding coaching.

Read More

WIRELESS

Vislink Showcases Innovative 5G & Cloud-Based Wireless Solutions

Vislink | May 27, 2022

Vislink, a worldwide leader in the capture, distribution, and management of high quality, live video and data in the media & entertainment, law enforcement, and military industries, presented private network 5G technology during a sports event in the UK to illustrate its potential in broadcast. Vislink and Mobile Viewpoint's adoption heralds a revolution in remote production processes by extending bi-directional IP connections to the edge and allowing virtualized production in the cloud. Vislink's breakthroughs were on display at the Gallagher Premiership Rugby match between Saracens and the Northampton Saints at StoneX Stadium in London, where it backed a BT-led project to highlight the potential for 5G in broadcast contributions by connecting matchday cameras to a standalone private 5G network. In a UK first, this cameras' feed was included in BT Sport's live broadcasts of the match, a first for a customer broadcast. BT Media & Broadcast, BT Sport, Broadcast RF, and Neutral Wireless headed the project. Vislink installed private network 5G transmitters with COFDM technology to illustrate how 5G technology is growing to offer assured quality, low latency video from wireless cameras to give spectators realistic up-close camera views of the athletic event. Mobile Viewpoint's 5G-enabled encoders send camera feeds to the cloud across a secure, low-latency 5G private network and IP LAN. The director can pick camera feeds for the program stream fully in the cloud, utilizing BT Sport's virtualized production process. This cloud-based installation illustrates Mobile Viewpoint's capacity to bring new cost and operating advantages for distant manufacturing operations. Vislink's long-standing expertise in COFDM-based wireless technologies was bolstered last year with the inclusion of Mobile Viewpoint 5G technology capabilities. Vislink now has a best-of-breed portfolio of resilient and efficient solutions for a broad range of deployment situations thanks to the integration of these technologies. Following on from the world's first stand-alone private 5G network for sports broadcasting during the British MotoGP 2021 Grand Prix, this current public demonstration signals another step forward in the company's 5G wireless technology leadership. Vislink and Mobile Viewpoint showed the world's first glass-to-glass All-IP wireless and virtualized manufacturing during this experiment, which was arranged by BT Sport and BT Media & Broadcast. This momentous trial has now established the future course for live event streaming.

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